Abstract
The output power and terminal voltage of the fixed speed induction generator fluctuate in the partial load region where the wind speed is below the rated vale, resulting in fluctuations in the grid frequency and voltage. In this paper, a novel pitch angle control strategy has developed by introducing an exponential moving average (EMA) concept from which the controller reference power (signal) can be set for below-rated wind speeds. Therefore, the employed pitch angle controller together with static synchronous compensator (STATCOM), named the unified voltage and pitch angle controller (UVPC), addresses the objective of smoothing the output power and terminal voltage regulation of a wind generator, subjected to below-rated wind speed variations. Moreover, an interval type-2 fuzzy logic technique has incorporated in the pitch angle controller design, since it is more efficient in handling the uncertainties in membership functions and rules than its traditional fuzzy logic counterparts. Simulation results clearly show that the proposed UVPC effectively smoothens out the generator output power and also regulates the terminal voltage at its constant magnitude.
Highlights
Wind energy systems (WESs) are renewable energy sources that, at present, are enjoying drastic growth due to economical and environmental considerations
A novel pitch angle control approach has been incorporated which works worksbelow-rated under below‐rated windMoreover, speed
Antype-2 interval type‐2 fuzzy logic technique has been under wind speed
Summary
Wind energy systems (WESs) are renewable energy sources that, at present, are enjoying drastic growth due to economical and environmental considerations. More than 341,320 wind turbines are operating all over the world [1]. The different types of induction generator-based wind energy systems have been studied [2,3]. Nowadays modern wind energy systems mostly utilize variable-speed induction generators (doubly-fed) [4] but fixed-speed induction generators (FSIGs) are still being used due to their low cost, low maintenance and robustness. In Australia, Germany and Denmark respectively, about 87 MW, 48 MW and 47.1 MW of installed wind turbines (rated at 1.5 MW) are FSIG-based wind turbines [5]. Fixed speed wind energy systems exist around the world in considerable number due to their own merits, they require dynamic reactive power support
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